Does the Mass Accretion Rate Depend On the Radius of the Accreting Star?

Abstract

In some circumstances, the mass accretion rate Mdot onto a compact star may depend not only on external boundary conditions, but also on the radius R of the star. Writing the dependence as a power-law in which Mdot is proportional to Rp, we estimate the power-law index, p, for transient binary systems in a quiescent state. We use the observed luminosities L of accreting neutron stars (R=106 cm) in soft X-ray transients and white dwarfs (R=109 cm) in similar cataclysmic variables, and estimate Mdot in each system through the relation L=(GM/R)*Mdot, where M is the mass of the star. From the available data we infer that p~0.9+-0.5. This radial dependence is consistent with radiatively inefficient accretion flows that either are convective or lose mass via a wind.

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